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Item 3D visualization of a timber frame historic building : Partite usage and its impact on the structural system(International Society for Photogrammetry and Remote Sensing, 2017) Gunay, SerkanThroughout their lifetime, historic buildings might be altered for different kind of usage for different purposes. If this new function or new usage requires utilization of the building in separate units, this separation might affect the historic building's functionality and structure and as a result its overall condition. Yorguc Pasa Mansion conservation project was prepared as a part of the Middle East Technical University (METU) Master's Program in Documentation and Conservation of Historic Monuments and Sites for the historic Yorguc Pasa Mansion. The mansion is a 19th century Ottoman Period timber frame building in Amasya, a Black Sea Region city in Turkey that has traces from different civilizations such as Hittites, Greeks, Romans and Ottomans. This paper aims to discuss the affects of the partite usage on structural conditions of timber frame buildings with the case study of Amasya Yorguc Pasa Mansion through the 3D visualized structural systems. © Authors 2017. CC BY 4.0 License.Item A Review on Numerical Modeling of the Hygrothermal Behavior of Building Envelopes Incorporating Phase Change Materials(Multidisciplinary Digital Publishing Institute (MDPI), 2023-12) Sawadogo, Mohamed; Godin, Alexandre; Duquesne, Marie; Hamami, Ameur El Amine; Belarbi, RafikBuildings are submitted to various external and internal solicitations that could affect its energy performance. Among these solicitations, temperature and moisture play a crucial role and could irrevocably affect the comfort of the occupants and the indoor air quality of the living environment. To assess the impact of the solicitation on building performance, a precise modeling of the heat, air, and moisture transfer phenomenon is necessary. This work proposes an extensive review of the hygrothermal models for building envelopes. The different models are divided into nodal and HAM techniques for heat, air, and moisture (HAM) transfer models. The HAM approach has been classified based on four driving potentials: moisture content, relative humidity, capillary pressure, and vapor pressure. Phase change materials (PCMs), alongside hygroscopic materials, enhance building thermal capacity and energy efficiency. There are various approaches to studying phase changes, with enthalpy-based and heat capacity approaches being the most popular. Building performance can be improved by combining PCM thermal inertia with hygroscopic moisture management. This review has exhibited the need for numerical models that address phase change and moisture behavior in these hybrid materials, capable of controlling temperature and humidity. © 2023 by the authors.Item A review on recent research on bio-based building materials and their applications(Springer Science and Business Media Deutschland GmbH, 2023-08) Bourbia, S.; Kazeoui, H.; Belarbi, R.Bio-based materials represent a promising alternative in building envelope applications, with the aim of improving in-use energy efficiency. They have the advantage of being renewable, low embodied energy and CO2 neutral or negative. In addition, they are excellent thermal regulators. This paper presents an overview of the state-of-the-art of bio-based materials used in building construction and their applications. The materials outlined include hemp, wood, date palm wood, cork, alfa and straw. Through this literature study we want to get a broad overview of the current state of theoretical and experimental studies of their hygrothermal characteristics and their thermal and energy performances. The aim is not to be exhaustive but to summarise the most important research results on these materials. This is the first part of a research work that deals with the contribution to the development of a new bio-based construction material to be used in building. © 2023, The Author(s).Item Acoustics of a traditional dwelling and music of Jordan(Russian Academy of Architecture and Construction Sciences, Vostoksibacademcenter, 2023) Alshurman, Ali Salem; Qaqish, RaedThe ancient culture of Jordan developed against the background of a peculiar climate and landscape, which determined the features of the traditional Jordanian dwelling. The design of the house and the choice of materials reveal a connection with the musical traditions of Jordan. The musical genre of folk song-story and the sound of folk musical instruments are supported by the sound–absorbing properties of traditional building materials – felt, woolen fabrics, adobe. The cave dwelling, also typical of Jordan, has not been studied enough from the point of view of acoustics. © 2023 Russian Academy of Architecture and Construction Sciences, Vostoksibacademcenter. All rights reserved.Item Architectural Interregnums(Lifelong Learning EU, 2020-02) Spiridonidis, Constantin Victor; Vogiatzaki, MariaArchitectural design has always been the laboratory where experimentation with ideas about the newness, and elaboration of forms and spatial arrangements take place towards architectural creations. Prefixes such as post-, de-, re-, neo-, appear as typical signifiers of the spirit of novelty representing the different shifts that shape the history of architecture and could be broadly summarized by the term ‘meta’. Even if ‘meta’ is a kind of ontological reference to newness, implying its definition with what preceded, it always remains polysemic and, for this reason, ambivalent. Design is acting between the existing and the (be)coming, the established and the expected, the familiar and the xenon, the antipathy and the empathy. It is driven by the quest for a ‘meta’, known (or not) that since its appearance, it will lose its newness and will become commonplace. What type of novelty does it put forward through its creations in the contemporary interregnum? What are the primary formal or material traits that can attribute that identity to the new that can clearly distinguish it from the old? The paradox we are confronted with nowadays is that despite the unprecedentedly fast pace of changes happening in the sphere of the intellect, the sciences, technology, and the geopolitics of the globalized world, there are no apparent signs of novelty in contemporary architectural production. © 2020,ArchiDOCT All Rights RecervedsItem Children's cognitive perception of their neighborhood : reading the cognitive maps of children from Al-Wihdat Palestinian Refugee Camp in Amman, Jordan(University of Akron, 2018) Al-Khalaileh, EyyadIn urban spaces, children constitute a major segment of those growing up there, and children illustrate their ideas on the cities they live in, how they perceive their neighborhoods as users of the urban environment. Their drawings can be seen as and interpreted as cognitive maps, and can serve as an important source for today's urban designers, architects, educators, and government officials. The cognitive maps of children are not only some visual productions but are also imbued with the realties and objects of everyday life, like an organically designed textile. There is a relative lack of studies on the children's relationship with their particular urban space and its range of elements. This study seeks in part to address that knowledge gap. Although reading cognitive drawings is, in fact, a psychological subject, as they contain cognitive perception of the space they engage with and are related to the external world, they are particularly of interest for the planners and designers creating and seeking to change and better that environment. Based on what the drawings display, what needs that human-focused urban design suggests as reflected in children's cognitie mapping will be interpreted in the scope of this study. The material for this research has been extracted from my 2004 doctoral dissertation and constitutes one of a series of four related papers in progress discussing children's outdoor environment using four different methodological approaches. This paper investigates and seeks to interpret the drawings of their environment by a selected number of students 10-14 years old from Al-Whidat Palestinian refugee camp in Amman, Jordan, their cognitive perception of that living environment and the unhealthy chaotic aspects of the city. © 2018 Geo Publishing, Toronto Canada.Item Clustering Countries According to Their Cultural Proximity and Similarity(Springer Science and Business Media B.V., 2017) Dankert, Angelika C.; Dekkiche, Hamoud; Baadel, Said; Kabene, Stefane M.Item Cognitive Computational Model Using Machine Learning Algorithm in Artificial Intelligence Environment(Sciendo, 2022) Liu, Shangyi; Spiridonidis, Constantin-Viktor; Abdulrazzqa, Mohammed; Liu, Shangyi; Spiridonidis, Constantin-Viktor; Abdulrazzqa, MohammedIn order to explore the application of machine learning algorithm to intelligent analysis of big data in an artificial intelligence (AI) environment, make cognitive computing meet the requirements of AI and better assist humans to carry out data analysis, first, the theoretical basis of machine learning algorithm is elaborated. Then, a cognitive computational model based on the machine learning algorithm is proposed, including the essence, principle, function, training method of deep belief network (DBN) algorithm, as well as the joint use of DBN algorithm and multilayer perceptron. Finally, the proposed algorithm is simulated. The results show that under the same parameter conditions, the accuracy rate of the DBN algorithm combined with multilayer perceptron is higher than that of the DBN algorithm; when the number of units is >40, the accuracy rate of the DBN algorithm combined with multilayer perceptron is significantly higher than that of the DBN algorithm; when the number of units is 30, the best effect can be obtained, and the error rate is <0.05, but the DBN algorithm cannot achieve this effect alone; when the number of network layers is specified as four, the error rate of the DBN algorithm combined with multilayer perceptron is <0.05, forming the optimal level. In the AI environment, the performance of the cognitive computational model based on the DBN algorithm and multilayer perceptron can reach the highest level, which makes the computer become a handy intelligent auxiliary tool for human beings. © 2021 Liu et al., published by Sciendo.Item Comprehensive Review of Innovative Materials for Sustainable Buildings’ Energy Performance(Multidisciplinary Digital Publishing Institute (MDPI), 2023-11) Nasr, Yara; El Zakhem, Henri; Hamami, Ameur El Amine; El Bachawati, Makram; Belarbi, RafikThe building sector, one of the most energy-consuming, is among the most current topics due to the maturing concerns about the anthropogenic factor’s impact on CO2 quantities in the atmosphere and its association with global temperature rise. Using sustainable building materials is a promising alternative in building envelope applications to improve in-use energy efficiency. These materials, having a low environmental impact, the advantage of being renewable, and low embodied energy, contribute to global sustainability. This comprehensive literature review presents a broad overview of these materials’ hygrothermal characteristics, thermal performance, and energy use. The main goal is to compile the most important research findings on these materials’ capabilities for building construction and their contributions and effects on energy performance and thermal insulation. © 2023 by the authors.Item Development and hygrothermal performance analysis of a novel eco-friendly insulating wall under various climatic conditions(Elsevier Ltd, 2023-11-01) Sawadogo, M.; Benmahiddine, F.; Godin, A.; Duquesne, M.; Belarbi, R.; Hamami, A.Item Does tourism chase the living culture? Singapore’s Kampong Glam and Geylang Serai(Liverpool University Press, 2023-12-26) Azzali, Simona; Argent, Rachel; Law, Lisa; Seow, MargaretItem Does Volatility in Air Pollution Index Affect Firm Financing Pattern?(Asia University, 2023-12) Al-Haddad, Lara; Al Abed, Shafiq; QaQish, RaEd Kamal; Marashdeh, Zyad; Al-Hamad, Abd Al-Salam AhmadItem Evaluation of Decay on Historic Masonry Building Facades, Case Study; Deira and Bur Dubai(International Masonry Society, 2014) Gunay, SerkanAs being one of the seven emirates that forms the United Arab Emirates since the year 1971, history of human settlements in the Arabian Peninsula dates back to mid 2000 BC. Apart from the archeological sites and tombs, starting from the 1800s, earliest settlements of the town of Dubai start to establish at the shorelines of the Gulf Region. Bur Dubai and Deira are the areas that you can still find the edifices from these times. Being a port town, Dubai starts to expand through Dubai Creek as the trade between Iran and sub-continent India improves during the early 1900s. Most of the remaining historic buildings were built during this period as residences of merchant families. These traditional residential buildings [1], mostly built with locally available coral stone, still sets a good example of such architecture with their courtyards, “Majlis” areas, Barjeels (wind tower) and gypsum decorated gates. Dubai Municipality Architectural Heritage Department has been restoring these historic buildings since the year 1991. Although the buildings relatively newly renovated, material decay on the facades are visible and needs sustainable maintenance. This paper aims to document and evaluate the material decay on historic building facades in Deira and Bur Dubai region of Dubai, based on the site studies during 2011 and 2012.Item Experimental assessment of the similarity law for a one-dimensional coupled heat and water vapor diffusion in hemp concrete(Elsevier Ltd, 2023-08-01) Charaka A.; Berger J.; Benmahiddine F.; Belarbi R.Item Geometries(Lifelong Learning EU, 2019-02-01) Spiridonidis, Constantin VictorGeometry as a discipline related to forms and their order, in the intellectual tectonics of Architecture? What is its contribution, its position? Does Geometry affect this 'archi-tecture' by enriching its contents with notions and meanings or, on the contrary, does it affect it by eliminating or restricting its potential formal configurations? Is this diachronic symbiosis with Architecture dynamic, inspirational, instrumental, deliberative, imposing? Does Geometry act as a framework to create an enclosure or does it constitute an escape room from the ordinary, the established, the regular, the 'out of the comfort zone', and to investigate in freedom the new normal, the innovative, the original or, at least, the different and the better? Architecture is addressed to Geometry with entirely different demands in time. We could, therefore, suggest that there are many versions of Geometry affiliated with architecture, that is to say, many Geometries. This essay examines the role of Geometry in architectural thinking and practice in three major periods of architectural development. The first is the period in which the focal point of architectural thinking is the cosmic and the divine, (from the antiquity till about the 13th Century) where Geometry is that of the Master Builder. The second is the era of humanism, where the central preoccupation of Architecture is the human (from the Renaissance to the late 20th Century), and Geometry is that of visual perception. The third is the emerging era of the post-human, where the main focus of Architecture becomes 'Gaia,' the Planet as an alive ecology that emerges from the symbiosis between the natural and the artificial, and Geometry is that of data. © 2019 Lifelong Learning EU.Item HBIM: A Tool for Enhancing the Diagnosis of Historical Buildings: The Case of St. George’s Memorial Anglican Church, Oshawa(Multidisciplinary Digital Publishing Institute (MDPI), 2023-08) Taileb, Ali; Dekkiche, Hamoud; Sherzad, Mohammed FareedThe primary objective of this research is to address the research gap in the conservation of heritage buildings in Canada by integrating Historical Building Information Modeling (HBIM) as a tool. The proposed study aims to develop an enhanced framework for the preservation of historical buildings through the utilization of HBIM and 3D-scanning technology. As a result, the research aims to generate a comprehensive database comprising various families of models while also incorporating strategies for point-cloud clustering data. The significance of this research lies in its potential to contribute to the conservation and restoration process of historical buildings. Currently, there are a lack of standardized approaches and comprehensive databases for accurately documenting and reproducing historical buildings. By integrating HBIM and 3D-scanning technology, this research will enable the creation of highly accurate three-dimensional virtual models, consisting of millions of points, which will serve as a comprehensive dataset for the restoration of heritage buildings. The findings of this research will benefit multiple stakeholders. Preservation architects, conservationists, and heritage professionals will gain a valuable tool for documenting and analyzing historical buildings with a high level of precision. The comprehensive database and framework proposed in this study will facilitate decision-making processes during the restoration and preservation phases, ensuring that the original architectural elements and materials are faithfully reproduced. Additionally, policymakers and governmental organizations involved in heritage conservation can use the outcomes of this research to establish standardized guidelines and regulations for the preservation of historical buildings in Canada. Ultimately, the broader community will benefit from the enhanced preservation efforts, as it will contribute to the cultural and historical identity of the nation, fostering a sense of pride and connection to the past. © 2023 by the authors.Item High-Volume Recycled Waste Glass Powder Cement-Based Materials: Role of Glass Powder Granularity(Multidisciplinary Digital Publishing Institute (MDPI), 2023-07) Younsi, Akli; Mahi, Mohammed Amar; Hamami, Ameur El Amine; Belarbi, Rafik; Bastidas-Arteaga, EmilioThe use of recycled waste glass powder (RWGP) as a partial substitute for cement in cement-based materials offers a promising solution for reducing environmental impact and promoting sustainable waste management practices. An experimental study was conducted on a reference material made with Portland-limestone cement CEMII/A-LL42.5R and three other materials containing 50 wt% RWGP with different mean diameters, d50: 16, 18, and 25 µm. The main objective was to analyze the role of RWGP granularity in the short- and medium-term properties of the cement-based materials. The results showed that coarser RWGP granularity led to an increase in fluidity and Portlandite content, while water demand and mechanical properties decreased. However, the range of RWGP granularities tested did not significantly affect the initial setting time, fresh and dry density, hydration temperature, and water porosity. These findings suggest that the choice of RWGP granularity should depend on the desired properties of the cement-based material. © 2023 by the authors.Item Hygrothermal and microstructural characterization of self-consolidating earth concrete (SCEC)(Elsevier Ltd, 2023-06-15) Kohandelnia, Mojtaba; Hosseinpoor, Masoud; Yahia, Ammar; Belarbi, RafikItem Infrared imaging as a means of analyzing and improving energy eficiency of building envelopes : the case of a LEED Gold Building(Elsevier Ltd, 2015) Ali, Taileb; Dekkiche, HamoudToday many designers claim that they are engineering green or LEED certified buildings. LEED is an evaluation system that rates how sensitive buildings are to the environment and the objective of LEED is to reduce emissions through development of highly efficient mechanical systems, designing of durable and efficient wall systems and by providing additional thickness to insulation. Unfortunately currently there are many cases where these wall systems and insulations are supported by thin steel studs, which are highly conductive of energy and are 400 times more conductive than wood. The aim of this paper is to investigate the use of thermal bridging in a LEED certified building. Thermal bridging is a major source of heat loss through studs and wall systems in many buildings worldwide. The investigated building is Gold certified building built in 2011 located in Toronto, Canada. The exterior walls consist of a copper and brick cladding and steel studs. Using thermal imaging, as a non-destructive testing method, this research investigates and identifies the location of thermal bridging. This study recommends how to integrate infrared imaging into the LEED certification process and how to improve the future design of efficient wall systems. © 2015 The Authors. Published by Elsevier Ltd.Item Investigation of eco-friendly and economic shape-stabilized composites for building walls and thermal comfort(Elsevier Ltd, 2022-03-01) Sawadogo, Mohamed; Godin, Alexandre; Duquesne, Marie; Lacroix, Elodie; Veillère, Amélie; Hamami, Ameur El Amine; Belarbi, Rafik